Guimaraes_2022_Am.J.Physiol.Cell.Physiol__

Reference

Title : Neuronal cholinergic signaling constrains norepinephrine activity in the heart - Guimaraes_2022_Am.J.Physiol.Cell.Physiol__
Author(s) : Guimaraes DA , Aquino NSS , Rocha-Resende C , Jesus ICG , Silva MM , Scalzo SA , Fonseca RC , Durand MT , Pereira V , Tezini G , Oliveira A , Prado VF , Stefanon I , Salgado HC , Prado MAM , Szawka RE , Guatimosim S
Ref : American Journal of Physiology Cell Physiol , : , 2022
Abstract :

It is well known that cholinergic hypofunction contributes to cardiac pathology; yet, the mechanisms involved remain unclear. Our previous publication has shown that genetically engineered model of cholinergic deficit, the vesicular acetylcholine transporter knockdown homozygous (VAChT KDHOM) mice exhibit pathological cardiac remodeling and a gradual increase in cardiac mass with aging. Given that an increase in cardiac mass is often caused by adrenergic hyperactivity, we hypothesized that VAChT KDHOM mice might have an increase in cardiac norepinephrine (NE) levels. We thus investigated the temporal changes in NE content in the heart from 3, 6 and 12 month-old VAChT mutants. Interestingly, mice with cholinergic hypofunction showed a gradual elevation in cardiac NE content, which was already increased at 6 months of age. Consistent with this finding, 6 month-old VAChT KDHOM mice showed enhanced sympathetic activity and a greater abundance of tyrosine hydroxylase positive sympathetic nerves in the heart. VAChT mutants exhibited an increase in peak calcium transient, and mitochondrial oxidative stress in cardiomyocytes along with enhanced GRK5 and NFAT staining in the heart. These are known targets of adrenergic signaling in the cell. Moreover, vagotomized-mice displayed an increase in cardiac NE content confirming the data obtained in VAChT KDHOM mice. Establishing a causal relationship between acetylcholine and NE, VAChT KDHOM mice treated with pyridostigmine, a cholinesterase inhibitor, showed reduced cardiac NE content, rescuing the phenotype. Our findings unveil a yet unrecognized role of cholinergic signaling as a modulator of cardiac NE, providing novel insights into the mechanisms that drive autonomic imbalance.

PubMedSearch : Guimaraes_2022_Am.J.Physiol.Cell.Physiol__
PubMedID: 35264016

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Citations formats

Guimaraes DA, Aquino NSS, Rocha-Resende C, Jesus ICG, Silva MM, Scalzo SA, Fonseca RC, Durand MT, Pereira V, Tezini G, Oliveira A, Prado VF, Stefanon I, Salgado HC, Prado MAM, Szawka RE, Guatimosim S (2022)
Neuronal cholinergic signaling constrains norepinephrine activity in the heart
American Journal of Physiology Cell Physiol :

Guimaraes DA, Aquino NSS, Rocha-Resende C, Jesus ICG, Silva MM, Scalzo SA, Fonseca RC, Durand MT, Pereira V, Tezini G, Oliveira A, Prado VF, Stefanon I, Salgado HC, Prado MAM, Szawka RE, Guatimosim S (2022)
American Journal of Physiology Cell Physiol :